金属表面上的 N-杂环烯烃--吸附、取向和电子影响

IF 4.3 3区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY Advanced Materials Interfaces Pub Date : 2024-06-10 DOI:10.1002/admi.202400378

Felix Landwehr, M. Das, S. Tosoni, Juan J. Navarro, Ankita Das, Maximilian Koy, M. Heyde, Gianfranco Pacchioni, Frank Glorius, B. Cuenya

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摘要

N-Heterocyclic olefins（NHOs）具有高度极化和电子丰富的双键，已被有效地用作表面改性的特殊锚。本文研究了 NHOs 在金属表面的吸附、取向和电子特性。在铜(111)表面上，立体需求低的 IMe-NHO 与其类似的 IMe-NHC 进行了比较。高分辨率电子能损耗谱（HREELS）测量结果表明，这两种分子都具有平卧环吸附构型。NHC 采用包括一个铜原子的二聚体构型，而 NHO 则通过垂直于表面的 C-Cu 键进行化学吸附。这种明显的差异使得 IMe-NHOs 在表面上具有更高的热稳定性。此外，与 IMe-NHC 相比，IMe-NHO 为表面带来了更高的净电子转移，从而对功函数产生了更强的影响。这些结果凸显了 NHOs 在表面科学中的作用，因为它们将 NHC 的功能化能力扩展到了更强的电子修饰。

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N‐Heterocyclic Olefins on a Metallic Surface – Adsorption, Orientation, and Electronic Influence

N‐Heterocyclic olefins (NHOs), possessing highly polarizable and remarkably electron‐rich double bonds, have been effectively utilized as exceptional anchors for surface modifications. Herein, the adsorption, orientation, and electronic properties of NHOs on a metal surface are investigated. On Cu(111), the sterically low‐demanding IMe‐NHO is compared to its analogous IMe‐NHC counterpart. High‐resolution electron energy‐loss spectroscopy (HREELS) measurements show for both molecules a flat‐lying ring adsorption configuration. While the NHC adopts a dimer configuration including a Cu adatom, the NHO chemisorbs over a C–Cu bond perpendicular to the surface. This distinct difference leads for the IMe‐NHOs to have a higher thermal stability on the surface. Moreover, IMe‐NHOs introduce a higher net electron transfer to the surface compared to the IMe‐NHCs, which results in a stronger effect on the work function. These results highlight the role of NHOs in surface science as they extend the functionalization capabilities of NHCs into stronger electronic modification.

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来源期刊

Advanced Materials Interfaces CHEMISTRY, MULTIDISCIPLINARY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

8.40

自引率

5.60%

发文量

1174

审稿时长

1.3 months

期刊介绍： Advanced Materials Interfaces publishes top-level research on interface technologies and effects. Considering any interface formed between solids, liquids, and gases, the journal ensures an interdisciplinary blend of physics, chemistry, materials science, and life sciences. Advanced Materials Interfaces was launched in 2014 and received an Impact Factor of 4.834 in 2018. The scope of Advanced Materials Interfaces is dedicated to interfaces and surfaces that play an essential role in virtually all materials and devices. Physics, chemistry, materials science and life sciences blend to encourage new, cross-pollinating ideas, which will drive forward our understanding of the processes at the interface. Advanced Materials Interfaces covers all topics in interface-related research: Oil / water separation, Applications of nanostructured materials, 2D materials and heterostructures, Surfaces and interfaces in organic electronic devices, Catalysis and membranes, Self-assembly and nanopatterned surfaces, Composite and coating materials, Biointerfaces for technical and medical applications. Advanced Materials Interfaces provides a forum for topics on surface and interface science with a wide choice of formats: Reviews, Full Papers, and Communications, as well as Progress Reports and Research News.